DE102007007600A1 - Silencer for exhaust system of internal-combustion engine in motor vehicle, has exhaust pipe arrangement conducted through expansion chamber in interruptible manner and exhibiting perforation within expansion chamber - Google Patents

Abstract

The present invention relates to a silencer (1) for an exhaust system of an internal combustion engine, in particular in a motor vehicle, comprising a housing (2), an exhaust pipe arrangement (5) guided through the housing (2) without interruption, an expansion chamber (2) formed in the housing (2). 3) and in the housing (2) formed resonator chamber (4) of a Helmholtz resonator (9), whose neck is formed by a in the housing (2) arranged connecting tube (6).
The exhaust pipe arrangement (5) is passed through the expansion chamber (3) and has a perforation (12) within the expansion chamber (3). The connecting tube (5) provides a communicating connection between the expansion chamber (3) and the resonator chamber (4).

Description

The The present invention relates to a silencer for an exhaust system of an internal combustion engine, especially in a motor vehicle.

Around effectively attenuate comparatively low frequencies in exhaust systems can, It is known in a muffler to form a Helmholtz resonator having a resonator chamber, the above a sound transmitting a neck is coupled to an exhaust pipe arrangement of the muffler. For the sound-transmitting Coupling of the resonator neck with the exhaust pipe arrangement is it basically possible, the resonator neck at a suitable location of the exhaust pipe assembly divert. Such branch points are disadvantageous in many ways. For one thing at the branching point at higher volume flows additional Sounds arise. Furthermore, branches are comparatively expensive in their production. In mehrflutigen exhaust systems, the resonator volume not over a single branch connected to the exhaust pipe arrangement become. At the junction can comparatively large Flow rates occur; it can also cause relatively high temperature fluctuations at the junction come.

alternative it is basically possible, to couple the resonator neck with an expansion chamber, in which the exhaust pipe arrangement has an interruption. However owns Such an arrangement also has numerous disadvantages. Again, you can z. B. at large volume flows Sounds develop. additionally Such an arrangement has a comparatively high pressure loss.

The present invention employs dealing with the problem, for a silencer of the type mentioned above to provide an improved embodiment, the especially for powerful internal combustion engine, which is characterized by comparatively high volume flows characterize. Furthermore, a solution is sought, the one has relatively low backpressure increase. Besides that is a cost-effective Manufacturing desired.

This Problem is inventively the subject of the independent Claim solved. Advantageous embodiments are the subject of the dependent Claims.

The Invention is based on the general idea, the exhaust pipe arrangement via a perforation sound-transmitting to couple with an expansion chamber while the resonator neck said Expansion chamber with the resonator chamber of the Helmholtz resonator combines. This construction results in the expansion chamber very low flow rates, which pressure losses in the flow through the muffler significantly reduced. The silencer is suitable especially for relatively high volume flows at the same time low pressure losses. Furthermore, the silencer in a special way for powerful internal combustion engines or for large-volume Internal combustion engines. Inside the expansion chamber can also temperature fluctuations be reduced, which is particularly positive for the fatigue strength of the muffler effect.

One Another important advantage of the proposed construction according to the invention can be seen in that the exhaust pipe arrangement by the entire case of the silencer or be passed at least through the expansion chamber without interruption can, what the support the individual components of the exhaust pipe arrangement within of the housing, for example, by means of corresponding partition walls, extremely simplified.

Provided the exhaust pipe arrangement comprises a plurality of exhaust pipes, of which at least two within the expansion chamber each have a perforation have different attenuation characteristics, by the respective perforation is adapted accordingly. For example can the perforations in terms of number of holes and hole cross-section differ from each other. This is particularly advantageous if the at least two gas pipes as a function of load and / or Speed of the internal combustion engine are flowed through differently by exhaust gas. For example, one of the exhaust pipes is activated only at larger exhaust gas flow rates. In this way, comparatively easy a different damping characteristics dependent on the exhaust gas volume flow can be realized.

Further important features and advantages of the invention will become apparent from the Dependent claims, from the drawings and from the associated description of the figures the drawings.

It it is understood that the above and the following yet to be explained features not only in the specified combination, but also in other combinations or alone, without to leave the scope of the present invention.

Preferred embodiments of the invention are illustrated in the drawings and will be explained in more detail in the following description, wherein like reference numerals refer to the same or similar or functionally identical components relate.

It show, in each case schematically,

1 to 4 in each case a greatly simplified, schematic sectional view of a muffler in various embodiments.

According to the 1 to 4 has a silencer 1 a housing 2 in which at least one expansion chamber 3 and a resonator chamber 4 are formed. Furthermore, the silencer points 1 an exhaust pipe arrangement 5 on and contains in its housing 2 a connecting pipe 6 , In the embodiments shown, the muffler 1 also an absorption chamber 7 on, also in the case 2 is formed and optional with a sound-absorbing material or absorbent 8th at least partially filled.

The silencer 1 is intended for installation in an exhaust system of an internal combustion engine, not shown here, which can be arranged in particular in a motor vehicle.

At the silencer 1 forms the resonator chamber 4 the resonance volume of a Helmholtz resonator 9 , the resonator neck through the connecting pipe 6 is formed. The connecting pipe 6 is in the case 2 arranged so that it is the resonator chamber 4 with the expansion chamber 3 communicating connects.

The exhaust pipe arrangement 5 is through the case 2 passed through, thus has two ends 10 and 11 , of which the one - depending on the direction of flow of the exhaust pipe arrangement 5 - forms an exhaust gas inlet, while the other then forms an exhaust gas outlet. Between the ends 10 . 11 runs the exhaust pipe arrangement 5 inside the house 2 , It is noteworthy that the exhaust pipe arrangement 5 at least through the expansion chamber 3 is passed without interruption. In the examples shown, the exhaust pipe arrangement 5 through the whole case 2 passed through without interruption. This means in particular that the exhaust pipe arrangement 5 between their ends 10 . 11 ensures a more or less effective flow guidance at each point. The exhaust pipe arrangement 5 is through the expansion chamber 3 passed and points inside the expansion chamber 3 a perforation 12 in particular through a variety of holes 13 is formed, which is a flow-leading wall of the exhaust pipe arrangement 5 break through. The perforation 12 thus creates a sound transmitting connection between an interior 14 the exhaust pipe arrangement 5 and the expansion chamber 3 , It is worth noting that such a perforation 12 the flow through the exhaust pipe arrangement 5 only comparatively slightly impaired. In particular, due to the perforation 12 only a comparatively low increase in pressure. Furthermore, the perforation leads 12 even at comparatively high mass flows to no significant additional noise within the muffler 1 , In operation, now from the Helmholtz resonator 9 sound to be damped in the expansion chamber 3 enter and thus over the connecting pipe 6 coupled Helmholtz resonator 9 activate. As a result, in particular low-frequency noise of a certain interference frequency or a particular interference frequency band can effectively dampen.

In addition, the absorption chamber 7 cause a certain damping effect, especially for high-frequency noise. The absorption chamber 7 can preferably via a further perforation 15 , which is not recognizable here, sound transmitting with the expansion chamber 3 be coupled. This perforation 15 can z. B. in an intermediate wall 16 be provided, which is the expansion chamber 3 from the absorption chamber 7 separates. Basically, it is also possible to use the absorption chamber 7 sound transmitting with the resonator chamber 4 or with the exhaust pipe arrangement 5 or with the connecting pipe 6 to couple, for example, by a corresponding perforation, the z. B. in an absorption chamber 7 from the resonator chamber 4 separating partition 17 or in one within the absorption chamber 7 extending portion of the connecting pipe 6 or in one within the absorption chamber 7 extending portion of the exhaust pipe arrangement 5 can be trained.

In the embodiments shown here, the exhaust pipe arrangement 5 through the resonator chamber 4 passed. Likewise, the exhaust pipe arrangement 5 in these embodiments through the absorption chamber 7 passed. Further, the expansion chamber 3 and the resonator chamber 4 and here the absorption chamber 7 with respect to a longitudinal direction of the exhaust pipe arrangement 5 arranged axially one behind the other, wherein the absorption chamber 7 - If present - axially between the expansion chamber 3 and the resonator chamber 4 is arranged.

In the 1 embodiment shown is characterized in that the exhaust pipe arrangement 5 here from a single exhaust pipe 18 consists. This exhaust pipe 18 is, in particular straight, through the housing 2 passed through and points in a through the expansion chamber 3 passed through the perforation 12 on. This design is suitable for single-flow exhaust systems for single-flow sections of exhaust systems.

In the 2 The embodiment shown is intended for a multi-flow exhaust system or for a mehrflutigen section of an exhaust system and is characterized in that the exhaust pipe arrangement 5 several exhaust pipes which can be flowed through in parallel 18 . 19 having. In the example shown, only two such exhaust pipes 18 . 19 shown. Likewise, there are three or more exhaust pipes 18 . 19 conceivable. The two exhaust pipes 18 . 19 are each through the housing 2 passed. At least one of the two exhaust pipes 18 . 19 is also through the expansion chamber 3 passed and points inside the expansion chamber 3 one with the perforation 12 provided section. In the illustrated embodiment, both exhaust pipes 18 . 19 through the expansion chamber 3 passed through and each in a through the expansion chamber 3 passed through section with such a perforation 12 respectively 12 ' Mistake. The embodiment according to 2 shows an optional feature where the perforations 12 . 12 ' the two exhaust pipes 18 . 19 are designed differently. The two perforations 12 . 12 ' are configured differently with regard to the sound-coupling effect. For example, the number of holes 13 at the one exhaust pipe 18 less than the number of holes 13 ' of the other exhaust pipe 19 , Furthermore, the perforations can 12 . 12 ' with respect to the hole cross-sections, in particular with regard to the hole diameter, different from each other. For example, the holes 13 the one exhaust pipe 18 Here with a larger hole cross-section or hole diameter provided as the holes 13 ' the other exhaust pipe 19 ,

In the embodiments of the 3 and 4 has the exhaust pipe arrangement 5 each a coupling piece 20 on, the at least two individual lines 21 , with a common manifold 22 combines. In this case, the coupling piece 20 form a branch, in which at least one of the two individual lines 21 from the manifold 22 branches. Likewise, the coupling piece 20 form a junction, in which at least one of the individual lines 21 with the manifold 22 united. Depending on the direction of flow, the manifold 22 form an inlet tube while the two individual tubes 21 each form an outlet tube. In reverse flow direction form the two individual lines 21 one inlet pipe each, while the manifold 22 forms a common outlet pipe.

At the in 3 In the embodiment shown, the individual cables extend 21 through the resonator chamber 4 through and extend into the expansion chamber 3 into it, so possibly also through the absorption chamber 7 therethrough. In contrast, the manifold stands out 22 only in the expansion chamber 3 into it. At the in 4 the embodiment shown, the arrangement of the lines is chosen so that the manifold 22 through the resonator chamber 4 extends through and extends into the expansion chamber 3 extends into it, with the manifold 22 also through the absorption chamber 7 can extend through. In contrast, the two individual lines extend 21 only up to the expansion chamber 3 into it.

In both embodiments, the coupling piece 20 each within the expansion chamber 3 arranged. In addition, the coupling piece is preferred 20 with the perforation 12 fitted. To realize a particularly inexpensive construction, the coupling piece 20 be manufactured in shell construction and thus be assembled in particular from two half-shells. At least one of these trays can then handle the perforation 12 be provided.

The partitions 16 and 17 serve to separate the individual chambers 3 . 4 . 7 from each other and at the same time form a stiffener of the housing 2 , Furthermore, the intermediate walls serve 16 . 17 for holding the pipes of the silencer 1 , So the connecting pipe 6 as well as the pipes or lines 18 . 19 . 21 . 22 the exhaust pipe arrangement 5 ,

In the embodiments shown here, the respective silencer 1 only a single helmet holtzresonator 9 on. In other embodiments, two or more Helmholtz resonators may also be used 9 be provided, which can be switched in parallel and / or effective in series and tuned in particular with respect to different frequencies.

Claims (10)

Silencer for an exhaust system of an internal combustion engine, in particular in a motor vehicle, - with a housing ( 2 ), - with a through the housing ( 2 ) passed through exhaust line arrangement ( 5 ), - with one in the housing ( 2 ) trained expansion chamber ( 3 ), - with at least one in the housing ( 2 ) formed resonator chamber ( 4 ) of a Helmholtz resonator ( 9 ), whose respective neck through at least one respective in the housing ( 2 ) arranged connecting pipe ( 6 ), wherein the exhaust pipe arrangement ( 5 ) through the expansion chamber ( 3 ) is passed without interruption and within the expansion chamber ( 3 ) a perforation ( 12 ) having, - wherein the respective connecting pipe ( 6 ) the expansion chamber ( 3 ) with the resonator chamber ( 4 ) connects communicatively. Silencer according to claim 1, characterized in that the exhaust pipe arrangement ( 5 ) through the resonator chamber ( 4 ) is passed. Silencer according to claim 1 or 2, characterized in that - in the housing ( 2 ) an absorption chamber ( 7 ) is arranged, - that the connecting pipe ( 6 ) through the absorption chamber ( 7 ) and within the absorption chamber ( 7 ) has a perforation or - that the exhaust pipe arrangement ( 5 ) through the absorption chamber ( 7 ) and within the absorption chamber ( 7 ) has a perforation or - that the absorption chamber ( 7 ) from the expansion chamber ( 3 ) separating partition ( 16 ) a perforation ( 15 ) or - that one the absorption chamber ( 7 ) from the resonator chamber ( 4 ) separating partition ( 17 ) has a perforation. Silencer according to claim 3, characterized in that the exhaust pipe arrangement ( 5 ) through the absorption chamber ( 4 ) is passed. Silencer according to one of claims 1 to 4, characterized in that the expansion chamber ( 3 ) and the resonator chamber ( 4 ) or that the expansion chamber ( 3 ), the absorption chamber ( 7 ) and the resonator chamber ( 4 ) with respect to a longitudinal direction of the exhaust pipe arrangement ( 5 ) are arranged axially one behind the other. Silencer according to one of claims 1 to 5, characterized in that the exhaust pipe arrangement ( 5 ) from a single exhaust pipe ( 18 ) exists that through the housing ( 2 ) and in a through the expansion chamber ( 3 ) passed through the perforation ( 12 ) having. Silencer according to one of claims 1 to 5, characterized in that the exhaust pipe arrangement ( 5 ) several parallel through-flow exhaust pipes ( 17 . 18 ), each through the housing ( 2 ) are passed through and at least one of which in a through the expansion chamber ( 3 ) passed through the perforation ( 12 ) having. Silencer according to claim 7, characterized in that - at least two of the exhaust pipes ( 18 . 19 ) through the expansion chamber ( 3 ), - that at least two of the exhaust pipes ( 18 . 19 ) within the expansion chamber ( 3 ) a perforation ( 12 . 12 ' ) exhibit. Silencer according to claim 8, characterized in that the perforations ( 12 . 12 ' ) of the at least two exhaust pipes ( 18 . 19 ) within the expansion chamber ( 3 ) are designed differently, especially in terms of number of holes and / or hole cross-section. Silencer according to one of claims 1 to 5, characterized in that the exhaust pipe arrangement ( 5 ) an inlet pipe ( 22 ) and at least two outlet pipes ( 21 ) or an outlet tube ( 22 ) and at least two inlet pipes ( 21 ) having at least one perforation ( 12 ) having coupling piece ( 20 ) within the expansion chamber ( 3 ) are coupled together.